ABSTRACT
The hind limbs and feet of birds are the primary structures used for important tasks such as perching (e.g. Passeriformes), food procurement (e.g. diurnal and nocturnal raptors) and object manipulation (e.g. Psittaciformes). Birds of prey or ‘raptors’ in particular rely heavily on their feet to hunt and capture prey, with their toes equipped with sharply curved talons to facilitate prey restraint, prevent escape, and fatally wound prey. We hypothesise that raptors, being more reliant on their toes and digits for prey capture, will have greater pedal flexibility when compared with non-raptorial groups. We analysed pedal flexibility across four avian pedal morphotypes (anisodactyl, zygodactyl, facultative zygodactyl, and raptorial) representing both raptor and non-raptor groups by measuring the maximum angle of divarication between digits Dii, Diii, and Div. The anisodactyl morphotype (Corvidae) had the lowest measurements (min. 29°; max. 88°), and the zygodactyl morphotype (Cacatuidae) had the widest minimum and maximum digit angle divarication measurements (min. 115°; max. 166°). The facultative zygodactyl morphotype (Pandionidae, Strigidae, Tytonidae) had higher pedal flexibility than the anisodactyl morphotype. Within the anisodactyl morphotype, we compared raptor and non-raptor groups and found that the raptorial morphotype had the widest range of motion (76°) when compared with the other morphotypes. Further, within the raptorial morphotype group, there was a clear separation in pedal flexibility particularly between dietary specialists and generalists. The increased pedal flexibility of raptors could be shaped by physical adaptation to predatory behaviours and dietary choices.
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Acknowledgements
Both authors thank the Australian Museum for the provision of specimens for this research and the use of laboratory facilities there. We thank Diego Sustaita and four anonymous reviewers for their comments which greatly improved the manuscript. The authors also thank Stephen Debus for reviewing an early draft of the manuscript and providing helpful comments on raptor diets and hunting behaviours.
Author contributions
L.R.T. conceived the study; L.R.T. and P.G.M. designed the study; L.R.T. conducted laboratory work and collected the data; L.R.T. and P.G.M. interpreted the data; L.R.T. drafted the manuscript; L.R.T. and P.G.M. critically reviewed and prepared the final manuscript.
Supplementary material
Supplemental data for this article can be accessed here.